COMPARISON OF VEGETABLE OILS AND MONITORING OF RANCIDITY AND LARD ADULTERATION IN PALM OLEIN USING ELECTRONIC NOSE By GAN HOWE LIN Thesis Submitted to the School of Graduate Studies,, in Fulfilment of the Requirements for the Degree of Master of Science October 2004
ESPECIALLY DEDICATED TO MY BELOVED FAMILY ii
Abstract of thesis presented to the Senate of in fulfilment of the requirement for the degree of Master of Science COMPARISON OF VEGETABLE OILS AND MONITORING OF RANCIDITY AND LARD ADULTERATION IN PALM OLEIN USING ELECTRONIC NOSE BY GAN HOWE LIN October 2004 Chairman: Professor Yaakob bin Che Man, Ph.D. Faculty: Food Science and Technology Flavour analysis is typically performed by organoleptic panel, which is often expensive and less objective. A novel approach using a surface acoustic wave (SAW) sensing-based electronic nose (znose TM ) for flavour analysis was explored in this study for determination of some parameters of edible oils and fats. In the characterization of sixteen types of vegetable oils, the high resolution olfactory image, called VaporPrint TM, was unique for each type of vegetable oil studied. The score plot from principal component analysis (PCA) indicated that 97% of the total variance in the znose TM measurement data was described by PC 1 and PC 2. The loading plot revealed five compounds (m, k, n, s, and p) that were important to differentiate the vegetable oils. iii
In determining oxidative stability of RBD palm olein, the results of znose TM showed significant difference (P<0.05) between fresh oil and rancid oil. VaporPrint TM provided the operator with a visually recognised pattern for rapid identification of rancid offflavour. By using Pearson correlation analysis, high correlation (r> 0.90) was observed between electronic nose responses and chemical test data; as well as between electronic nose responses and sensory evaluation scores. The znose TM technique was also employed to monitor the presence of lard as an adulterant in RBD palm olein. As the adulteration level increased from 1% to 20%, a few distinct peaks were found to gradually increase in size in the znose TM chromatograms. These peaks dramatically increased in 3% lard, while the corresponding VaporPrint TM was obviously an exception to the normal RBD palm olein pattern. Qualitative identification of adulterated RBD palm olein samples was possible by the characteristic VaporPrint TM. The most significant relationship occurred between percent lard and adulterant peak number 6 (R 2 = 0.906). An ideal correlation was also observed between the electronic nose response and chemical analyses (r> 0.90). iv
Abstrak tesis yang dikemukakan kepada Senat sebagai memenuhi keperluan untuk Ijazah Master Sains PENCIRIAN MINYAK SAYURAN SERTA PEMANTAUAN KETENGIKAN DAN PENGADUKAN MINYAK KELAPA SAWIT OLEIN DENGAN LEMAK KHINZIR MENGGUNAKAN HIDUNG ELEKTRONIK Oleh GAN HOWE LIN October 2004 Pengerusi: Profesor Yaakob bin Che Man, Ph.D Fakulti: Sains Makanan dan Teknologi Pengujian citarasa biasanya dijalankan oleh panel ujideria yang selalunya mahal dan kurang objektif. Satu pendekatan baru menggunakan hidung elektronik (znose TM ) yang berasaskan pengesanan surface acoustic wave (SAW) untuk menganalisa citarasa telah diterokai dalam kajian ini untuk menentukan beberapa parameter minyak dan lemak masakan. Dalam pencirian enam belas jenis minyak sayuran yang berbeza, didapati imej resolusi tinggi yang dikenali sebagai VaporPrint TM adalah unik untuk setiap jenis minyak masak yang dikaji. Lakaran skor dari principal component analysis (PCA) menunjukkan 97% daripada jumlah varian dapat dijelaskan oleh PC 1 dan PC 2. Lakaran loading pula v
menunjukkan lima komponen (m, k, n, s, and p) yang penting dalam pembezaan minyak sayuran yang berlainan. Dalam menentukan kestabilan pengoksidaan minyak kelapa sawit olein, keputusan znose TM menunjukkan perbezaan yang bermakna (P<0.05) di antara minyak segar dengan minyak tengik. VaporPrint TM membolehkan pengguna mengenalpasti bau tengik dalam minyak dengan pantas. Dengan menggunakan korelasi Pearson, korelasi yang tinggi (r > 0.90) telah didapati di antara respons znose TM dan data ujian kimia, serta diantara respons znose TM dan skor ujideria. Kaedah znose TM juga digunakan untuk menguji kehadiran lemak khinzir dalam minyak kelapa sawit olein. Apabila lemak khinzir meningkat dari 1% ke 20%, saiz beberapa puncak didapati bertambah secara beransur-ansur. Puncak-puncak ini meningkat secara mendadak dalam 3% lemak khinzir sementara VaporPrint TM yang berkaitan adalah suatu pengecualian yang ketara kepada corak normal minyak kelapa sawit olein. Pengenalpastian kualitatif terhadap sampel RBD olein sawit yang tercemar dapat dilakukan dengan ciri-ciri VaporPrint TM yang tersendiri. Perhubungan yang paling ketara wujud antara peratus lemak khinzir tercemar dengan puncak ke-enam (R 2 = 0.906). Korelasi yang baik juga diperhatikan di antara respons znose TM dan analisis kimia (r> 0.90). vi
ACKNOWLEDGEMENTS I would like to express my most sincere gratitude and appreciation to my supervisory committee chairman, Professor Dr. Yaakob bin Che Man, for his invaluable guidance, advice and constant encouragement throughout the course of my research study. His constructive criticisms and suggestions provided me the strength and perseverance to complete this thesis despite several obstacles encountered throughout the course of this research, which at times seemed insurmountable. Appreciation also goes to the members of my supervisory committee, Dr. Nazimah Sheikh Abdul Hamid, Dr. Tan Chin Ping, and Dr. Nor Aini Idris for their support and invaluable suggestions to guide me during my study. I wish to express my gratitude to all members of the Faculty of Food Science and Biotechnology, UPM for providing the research facilities and technical assistance during my graduate study. Acknowledgment is also due to all my friends, Lee Wai Cheng, Pua Chun Kiat, Kenny Loh Seng Kean, Ms. Mariam binti Abdul, Ms Wanna Ammawath, Syahariza Zainul Abidin, Reni Rahayou Mohd. Zain; and those who have given me the moral encouragement and support to complete my graduate study. I would like to acknowledge the financial support provided by IRPA short term fund (53098) awarded to Dr. Tan Chin Ping and IRPA fund (03-02-040172-EA001) awarded to Professor Dr. Yaakob bin Che Man for this study. Acknowledgement is also due to the PASCA scholarship for granting me the opportunity to pursue my master degree. I would vii
like to thank STRIDE of Ministry of Defence, Malaysia, and Mr. Tibby Lim (Electronic Sensor Technology Malaysia representative) for technical support. I am also greatly indebted to my beloved parents and sisters, for their love, spiritual encouragement and support. I wish also to express my deepest appreciation to my boy friend, for his understanding, concern, faith and love. viii
I certify that an Examination Committee met on 27 October 2004 to conduct the final examination of Gan Howe Lin on her Master of Science thesis entitled Comparison of Vegetable Oils and Monitoring of Rancidity and Lard Adulteration in Palm Olein using Electronic Nose in accordance with Universiti Pertanian Malaysia (Higher Degree) Act 1980 and Universiti Pertanian Malaysia (Higher Degree) Regulation 1981. The committee recommended that the candidate be awarded the relevant degree. Members of the Examination Committee are as follows: AZIZAH HAMID, Ph.D. Associate Professor Faculty of Food Science and Technology (Chairman) SALMAH YUSOF, Ph.D. Professor Faculty of Food Science and Technology (Member) LAI OI MING, Ph.D. Lecturer Faculty of Food Science and Technology (Member) AMINAH ABDULLAH, Ph.D. Professor Faculty of Science and Technology Universiti KebangsaanMalaysia (Independent Examiner) GULAM RUSUL RAHMAT ALI, Ph.D. Professor/ Deputy Dean School of Graduate Studies Date : ix
This thesis submitted to the Senate of and has been accepted as fulfilment of the requirement for the degree of Master of Science. The members of the Supervisory Committee are as follows: YAAKOB BIN CHE MAN, Ph.D. Professor Faculty of Food Science and Biotechnology (Chairman) NAZIMAH SHEIKH ABDUL HAMID, Ph.D. Lecturer Faculty of Food Science and Biotechnology (Member) TAN CHIN PING, Ph.D. Lecturer Faculty of Food Science and Biotechnology (Member) NOR AINI BINTI IDRIS, Ph.D. Principal Research Officer Malaysia Palm Oil Board (MPOB) (Member) AINI IDERIS, Ph.D. Professor/ Dean School of Graduate Studies Date : x
DECLARATION I hereby declare that the thesis is based on my original work except for quotations and citations which have been duly acknowledged. I also declare that it has not been previously or concurrently submitted for any other degree at UPM or other institutions. GAN HOWE LIN Date: xi
TABLE OF CONTENTS Page DEDICATION ABSTRACT ABSTRAK ACKNOWLEDGEMENTS APPROVAL DECLARATION LIST OF TABLES LIST OF FIGURES LIST OF ABBREVIATIONS ii iii v vii ix xi xiv xv xvii CHAPTER I GENERAL INTRODUCTION 1 II LITERATURE REVIEW 5 Aroma Analysis Techniques 5 Sensory Analysis 6 Gas Chromatography/Mass Spectrometry 7 Electronic Nose 8 History 8 Definition 9 Principles of Olfaction 9 Sensor Technology 11 Statistical Analysis Techniques 17 Applications of Electronic Nose 19 Application of Electronic Nose in Fats and Oils Industry 24 Characterization of Vegetable Oils 24 Monitoring the Oxidation of Edible Oil 28 Monitoring the Authenticity of Edible Oil 30 Vegetable Oils 30 Rancidity in Fats and Oils 32 Oils and Fats Authentication 38 III CHARACTERIZATION OF VEGETABLE OILS BY SURFACE 44 ACOUSTIC WAVE SENSING ELECTRONIC NOSE Introduction 44 Materials and Methods 47 Oil Samples 47 Chemical Analyses 47 Electronic Nose Apparatus 48 xii
Electronic Nose Analysis 50 Data Analysis 51 Principal Component Analysis (PCA) 51 Results and Discussion 52 Chemical Analyses 52 Electronic Nose Analysis 56 Principal Component Analysis (PCA) 63 Conclusion 66 IV V MONITORING THE STORAGE STABILITY OF RBD PALM OLEIN 67 USING THE ELECTRONIC NOSE Introduction 67 Materials and Methods 68 Oil Samples 68 Chemical Analyses 69 Sensory Evaluation 69 Electronic Nose Analysis 69 Data Analysis 70 Results and Discussion 70 Chemical Analyses 70 Sensory Evaluation 76 Electronic Nose Analysis 77 Conclusion 89 MONITORING THE LARD ADULTERATION IN RBD PALM 90 OLEIN BY ELECTRONIC NOSE Introduction 90 Materials and Methods 92 Oil Samples 92 Blend Preparations 93 Chemical Analyses 93 Electronic Nose Analysis 93 Data Analysis 93 Results and Discussion 94 Chemical Analyses 94 Electronic Nose Analysis 97 Conclusion 105 VI GENERAL DISCUSSION AND RECOMMENDATION 106 Conclusions 106 Recommendations 109 REFERENCES 112 APPENDICES 125 BIODATA OF THE AUTHOR 136 xiii